作者:Zhang, C (Zhang, Chao)[ 1 ] ; She, YX (She, Yongxin)[ 1 ] ; Li, TF (Li, Tengfei)[ 2 ] ; Zhao, FN (Zhao, Fengnian)[ 1 ] ; Jin, MJ (Jin, Maojun)[ 1 ] ; Guo, YR(Guo, Yirong)[ 3 ] ; Zheng, LF (Zheng, Lufei)[ 1 ] ; Wang, SS (Wang, Shanshan)[ 1 ] ; Jin, F (Jin, Fen)[ 1 ] ; Shao, H (Shao, Hua)[ 1 ]
An electrochemical sensor based on molecularly imprinted polypyrrole (MIPPy) was developed for selective and sensitive detection of the herbicide glyphosate(Gly) in cucumber and tap water samples. The sensor was prepared via synthesis of molecularly imprinted polymers on a gold electrode in the presence ofGly as the template molecule and pyrrole as the functional monomer by cyclic voltammetry (CV). The sensor preparation conditions including the ratio oftemplate to functional monomers, number of CV cycles in the electropolymerization process, the method of template removal, incubation time, and pH were optimized. Under the optimal experimental conditions, the DPV peak currents of hexacyanoferrate/hexacyanoferrite changed linearly with Gly concentration inthe range from 5 to 800 ng mL(-1), with a detection limit of 0.27 ng mL(-1) (S/N = 3). The sensor was used to detect the concentration of Gly in cucumber andtap water samples, with recoveries ranging from 72.70 to 98.96%. The proposed sensor showed excellent selectivity, good stability and reversibility, and could detect the Gly in real samples rapidly and sensitively.
